Source code for cartopy.io.shapereader

# (C) British Crown Copyright 2011 - 2016, Met Office
#
# This file is part of cartopy.
#
# cartopy is free software: you can redistribute it and/or modify it under
# the terms of the GNU Lesser General Public License as published by the
# Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# cartopy is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with cartopy.  If not, see <https://www.gnu.org/licenses/>.


"""
Combines the shapefile access of pyshp with the
geometry representation of shapely:

    >>> import os.path
    >>> import cartopy.io.shapereader as shapereader
    >>> filename = natural_earth(resolution='110m',
    ...                          category='physical',
    ...                          name='geography_regions_points')
    >>> reader = shapereader.Reader(filename)
    >>> len(reader)
    3
    >>> records = list(reader.records())
    >>> print(type(records[0]))
    <class 'cartopy.io.shapereader.Record'>
    >>> print(sorted(records[0].attributes.keys()))
    ['comment', 'featurecla', 'lat_y', 'long_x', 'name', 'name_alt', \
'region', 'scalerank', 'subregion']
    >>> print(records[0].attributes['name'])
    Niagara Falls
    >>> geoms = list(reader.geometries())
    >>> print(type(geoms[0]))
    <class 'shapely.geometry.point.Point'>

"""

from __future__ import (absolute_import, division, print_function)

import glob
import itertools
import os

import shapely.geometry as sgeom
import shapefile
import six

from cartopy.io import Downloader
from cartopy import config


__all__ = ['Reader', 'Record']


def _create_point(shape):
    return sgeom.Point(shape.points[0])


def _create_polyline(shape):
    if not shape.points:
        return sgeom.MultiLineString()

    parts = list(shape.parts) + [None]
    bounds = zip(parts[:-1], parts[1:])
    lines = [shape.points[slice(lower, upper)] for lower, upper in bounds]
    return sgeom.MultiLineString(lines)


def _create_polygon(shape):
    if not shape.points:
        return sgeom.MultiPolygon()

    # Partition the shapefile rings into outer rings/polygons (clockwise) and
    # inner rings/holes (anti-clockwise).
    parts = list(shape.parts) + [None]
    bounds = zip(parts[:-1], parts[1:])
    outer_polygons_and_holes = []
    inner_polygons = []
    for lower, upper in bounds:
        polygon = sgeom.Polygon(shape.points[slice(lower, upper)])
        if polygon.exterior.is_ccw:
            inner_polygons.append(polygon)
        else:
            outer_polygons_and_holes.append((polygon, []))

    # Find the appropriate outer ring for each inner ring.
    # aka. Group the holes with their containing polygons.
    for inner_polygon in inner_polygons:
        for outer_polygon, holes in outer_polygons_and_holes:
            if outer_polygon.contains(inner_polygon):
                holes.append(inner_polygon.exterior.coords)
                break

    polygon_defns = [(outer_polygon.exterior.coords, holes)
                     for outer_polygon, holes in outer_polygons_and_holes]
    return sgeom.MultiPolygon(polygon_defns)


def _make_geometry(geometry_factory, shape):
    geometry = None
    if shape.shapeType != shapefile.NULL:
        geometry = geometry_factory(shape)
    return geometry


# The mapping from shapefile shapeType values to geometry creation functions.
GEOMETRY_FACTORIES = {
    shapefile.POINT: _create_point,
    shapefile.POLYLINE: _create_polyline,
    shapefile.POLYGON: _create_polygon,
}


[docs]class Record(object): """ A single logical entry from a shapefile, combining the attributes with their associated geometry. """ def __init__(self, shape, geometry_factory, attributes, fields): self._shape = shape self._geometry_factory = geometry_factory self._bounds = None # if the record defines a bbox, then use that for the shape's bounds, # rather than using the full geometry in the bounds property if hasattr(shape, 'bbox'): self._bounds = tuple(shape.bbox) self._geometry = False """The cached geometry instance for this Record.""" self.attributes = attributes """A dictionary mapping attribute names to attribute values.""" self._fields = fields def __repr__(self): return '<Record: %r, %r, <fields>>' % (self.geometry, self.attributes) def __str__(self): return 'Record(%s, %s, <fields>)' % (self.geometry, self.attributes) @property def bounds(self): """ The bounds of this Record's :meth:`~Record.geometry`. """ if self._bounds is None: self._bounds = self.geometry.bounds return self._bounds @property def geometry(self): """ A shapely.geometry instance for this Record. The geometry may be ``None`` if a null shape is defined in the shapefile. """ if self._geometry is False: self._geometry = _make_geometry(self._geometry_factory, self._shape) return self._geometry
[docs]class Reader(object): """ Provides an interface for accessing the contents of a shapefile. The primary methods used on a Reader instance are :meth:`~Reader.records` and :meth:`~Reader.geometries`. """ def __init__(self, filename): # Validate the filename/shapefile self._reader = reader = shapefile.Reader(filename) if reader.shp is None or reader.shx is None or reader.dbf is None: raise ValueError("Incomplete shapefile definition " "in '%s'." % filename) # Figure out how to make appropriate shapely geometry instances shapeType = reader.shapeType self._geometry_factory = GEOMETRY_FACTORIES.get(shapeType) if self._geometry_factory is None: raise ValueError('Unsupported shape type: %s' % shapeType) self._fields = self._reader.fields def __len__(self): return self._reader.numRecords
[docs] def geometries(self): """ Returns an iterator of shapely geometries from the shapefile. This interface is useful for accessing the geometries of the shapefile where knowledge of the associated metadata is desired. In the case where further metadata is needed use the :meth:`~Reader.records` interface instead, extracting the geometry from the record with the :meth:`~Record.geometry` method. """ geometry_factory = self._geometry_factory for i in range(self._reader.numRecords): shape = self._reader.shape(i) yield _make_geometry(geometry_factory, shape)
[docs] def records(self): """ Returns an iterator of :class:`~Record` instances. """ geometry_factory = self._geometry_factory # Ignore the "DeletionFlag" field which always comes first fields = self._reader.fields[1:] field_names = [field[0] for field in fields] for i in range(self._reader.numRecords): shape_record = self._reader.shapeRecord(i) attributes = dict(zip(field_names, shape_record.record)) yield Record(shape_record.shape, geometry_factory, attributes, fields)
[docs]def natural_earth(resolution='110m', category='physical', name='coastline'): """ Returns the path to the requested natural earth shapefile, downloading and unziping if necessary. To identify valid components for this function, either browse NaturalEarthData.com, or if you know what you are looking for, go to https://github.com/nvkelso/natural-earth-vector/tree/master/zips to see the actual files which will be downloaded. .. note:: Some of the Natural Earth shapefiles have special features which are described in the name. For example, the 110m resolution "admin_0_countries" data also has a sibling shapefile called "admin_0_countries_lakes" which excludes lakes in the country outlines. For details of what is available refer to the Natural Earth website, and look at the "download" link target to identify appropriate names. """ # get hold of the Downloader (typically a NEShpDownloader instance) # which we can then simply call its path method to get the appropriate # shapefile (it will download if necessary) ne_downloader = Downloader.from_config(('shapefiles', 'natural_earth', resolution, category, name)) format_dict = {'config': config, 'category': category, 'name': name, 'resolution': resolution} return ne_downloader.path(format_dict)
class NEShpDownloader(Downloader): """ Specialises :class:`cartopy.io.Downloader` to download the zipped Natural Earth shapefiles and extract them to the defined location (typically user configurable). The keys which should be passed through when using the ``format_dict`` are typically ``category``, ``resolution`` and ``name``. """ FORMAT_KEYS = ('config', 'resolution', 'category', 'name') # Define the NaturalEarth URL template. The natural earth website # returns a 302 status if accessing directly, so we use the naciscdn # URL directly. _NE_URL_TEMPLATE = ('http://naciscdn.org/naturalearth/{resolution}' '/{category}/ne_{resolution}_{name}.zip') def __init__(self, url_template=_NE_URL_TEMPLATE, target_path_template=None, pre_downloaded_path_template='', ): # adds some NE defaults to the __init__ of a Downloader Downloader.__init__(self, url_template, target_path_template, pre_downloaded_path_template) def zip_file_contents(self, format_dict): """ Returns a generator of the filenames to be found in the downloaded natural earth zip file. """ for ext in ['.shp', '.dbf', '.shx']: yield ('ne_{resolution}_{name}' '{extension}'.format(extension=ext, **format_dict)) def acquire_resource(self, target_path, format_dict): """ Downloads the zip file and extracts the files listed in :meth:`zip_file_contents` to the target path. """ from zipfile import ZipFile target_dir = os.path.dirname(target_path) if not os.path.isdir(target_dir): os.makedirs(target_dir) url = self.url(format_dict) shapefile_online = self._urlopen(url) zfh = ZipFile(six.BytesIO(shapefile_online.read()), 'r') for member_path in self.zip_file_contents(format_dict): ext = os.path.splitext(member_path)[1] target = os.path.splitext(target_path)[0] + ext member = zfh.getinfo(member_path) with open(target, 'wb') as fh: fh.write(zfh.open(member).read()) shapefile_online.close() zfh.close() return target_path @staticmethod def default_downloader(): """ Returns a generic, standard, NEShpDownloader instance. Typically, a user will not need to call this staticmethod. To find the path template of the NEShpDownloader: >>> ne_dnldr = NEShpDownloader.default_downloader() >>> print(ne_dnldr.target_path_template) {config[data_dir]}/shapefiles/natural_earth/{category}/\ {resolution}_{name}.shp """ default_spec = ('shapefiles', 'natural_earth', '{category}', '{resolution}_{name}.shp') ne_path_template = os.path.join('{config[data_dir]}', *default_spec) pre_path_template = os.path.join('{config[pre_existing_data_dir]}', *default_spec) return NEShpDownloader(target_path_template=ne_path_template, pre_downloaded_path_template=pre_path_template) # add a generic Natural Earth shapefile downloader to the config dictionary's # 'downloaders' section. _ne_key = ('shapefiles', 'natural_earth') config['downloaders'].setdefault(_ne_key, NEShpDownloader.default_downloader())
[docs]def gshhs(scale='c', level=1): """ Returns the path to the requested GSHHS shapefile, downloading and unziping if necessary. """ # Get hold of the Downloader (typically a GSHHSShpDownloader instance) # and call its path method to get the appropriate shapefile (it will # download it if necessary). gshhs_downloader = Downloader.from_config(('shapefiles', 'gshhs', scale, level)) format_dict = {'config': config, 'scale': scale, 'level': level} return gshhs_downloader.path(format_dict)
class GSHHSShpDownloader(Downloader): """ Specialises :class:`cartopy.io.Downloader` to download the zipped GSHHS shapefiles and extract them to the defined location. The keys which should be passed through when using the ``format_dict`` are ``scale`` (a single character indicating the resolution) and ``level`` (a number indicating the type of feature). """ FORMAT_KEYS = ('config', 'scale', 'level') _GSHHS_URL_TEMPLATE = ('https://www.ngdc.noaa.gov/mgg/shorelines/data/' 'gshhs/oldversions/version2.2.0/' 'GSHHS_shp_2.2.0.zip') def __init__(self, url_template=_GSHHS_URL_TEMPLATE, target_path_template=None, pre_downloaded_path_template=''): super(GSHHSShpDownloader, self).__init__(url_template, target_path_template, pre_downloaded_path_template) def zip_file_contents(self, format_dict): """ Returns a generator of the filenames to be found in the downloaded GSHHS zip file for the specified resource. """ for ext in ['.shp', '.dbf', '.shx']: yield (os.path.join('GSHHS_shp', '{scale}', 'GSHHS_{scale}_L{level}{extension}' ).format(extension=ext, **format_dict)) def acquire_all_resources(self, format_dict): from zipfile import ZipFile # Download archive. url = self.url(format_dict) shapefile_online = self._urlopen(url) zfh = ZipFile(six.BytesIO(shapefile_online.read()), 'r') shapefile_online.close() # Iterate through all scales and levels and extract relevant files. modified_format_dict = dict(format_dict) scales = ('c', 'l', 'i', 'h', 'f') levels = (1, 2, 3, 4) for scale, level in itertools.product(scales, levels): modified_format_dict.update({'scale': scale, 'level': level}) target_path = self.target_path(modified_format_dict) target_dir = os.path.dirname(target_path) if not os.path.isdir(target_dir): os.makedirs(target_dir) for member_path in self.zip_file_contents(modified_format_dict): ext = os.path.splitext(member_path)[1] target = os.path.splitext(target_path)[0] + ext member = zfh.getinfo(member_path) with open(target, 'wb') as fh: fh.write(zfh.open(member).read()) zfh.close() def acquire_resource(self, target_path, format_dict): """ Downloads the zip file and extracts the files listed in :meth:`zip_file_contents` to the target path. .. note: Because some of the GSHSS data is available with the cartopy repository, scales of "l" or "c" will not be downloaded if they exist in the ``cartopy.config['repo_data_dir']`` directory. """ repo_fname_pattern = os.path.join(config['repo_data_dir'], 'shapefiles', 'gshhs', '{scale}', 'GSHHS_{scale}_L?.shp') repo_fname_pattern = repo_fname_pattern.format(**format_dict) repo_fnames = glob.glob(repo_fname_pattern) if repo_fnames: assert len(repo_fnames) == 1, '>1 repo files found for GSHHS' return repo_fnames[0] self.acquire_all_resources(format_dict) if not os.path.exists(target_path): raise RuntimeError('Failed to download and extract GSHHS ' 'shapefile to {!r}.'.format(target_path)) return target_path @staticmethod def default_downloader(): """ Returns a GSHHSShpDownloader instance that expects (and if necessary downloads and installs) shapefiles in the data directory of the cartopy installation. Typically, a user will not need to call this staticmethod. To find the path template of the GSHHSShpDownloader: >>> gshhs_dnldr = GSHHSShpDownloader.default_downloader() >>> print(gshhs_dnldr.target_path_template) {config[data_dir]}/shapefiles/gshhs/{scale}/\ GSHHS_{scale}_L{level}.shp """ default_spec = ('shapefiles', 'gshhs', '{scale}', 'GSHHS_{scale}_L{level}.shp') gshhs_path_template = os.path.join('{config[data_dir]}', *default_spec) pre_path_tmplt = os.path.join('{config[pre_existing_data_dir]}', *default_spec) return GSHHSShpDownloader(target_path_template=gshhs_path_template, pre_downloaded_path_template=pre_path_tmplt) # Add a GSHHS shapefile downloader to the config dictionary's # 'downloaders' section. _gshhs_key = ('shapefiles', 'gshhs') config['downloaders'].setdefault(_gshhs_key, GSHHSShpDownloader.default_downloader())